//###########################################################################
//
// FILE:    hw_epwm.h
//
// TITLE:   Definitions for the EPWM registers.
//
//###########################################################################
// $TI Release: F2837xD Support Library v3.02.00.00 $
// $Release Date: Sat Sep 16 15:29:00 CDT 2017 $
// $Copyright:
// Copyright (C) 2013-2017 Texas Instruments Incorporated - http://www.ti.com/
//
// Redistribution and use in source and binary forms, with or without 
// modification, are permitted provided that the following conditions 
// are met:
// 
//   Redistributions of source code must retain the above copyright 
//   notice, this list of conditions and the following disclaimer.
// 
//   Redistributions in binary form must reproduce the above copyright
//   notice, this list of conditions and the following disclaimer in the 
//   documentation and/or other materials provided with the   
//   distribution.
// 
//   Neither the name of Texas Instruments Incorporated nor the names of
//   its contributors may be used to endorse or promote products derived
//   from this software without specific prior written permission.
// 
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// $
//###########################################################################

#ifndef HW_EPWM_H
#define HW_EPWM_H

//*****************************************************************************
//
// The following are defines for the EPWM register offsets
//
//*****************************************************************************
#define EPWM_O_TBCTL              0x0U         // Time Base Control Register
#define EPWM_O_TBCTL2             0x1U         // Time Base Control Register 2
#define EPWM_O_TBCTR              0x4U         // Time Base Counter Register
#define EPWM_O_TBSTS              0x5U         // Time Base Status Register
#define EPWM_O_CMPCTL             0x8U         // Counter Compare Control
                                               // Register
#define EPWM_O_CMPCTL2            0x9U         // Counter Compare Control
                                               // Register 2
#define EPWM_O_DBCTL              0xCU         // Dead-Band Generator Control
                                               // Register
#define EPWM_O_DBCTL2             0xDU         // Dead-Band Generator Control
                                               // Register 2
#define EPWM_O_AQCTL              0x10U        // Action Qualifier Control
                                               // Register
#define EPWM_O_AQTSRCSEL          0x11U        // Action Qualifier Trigger
                                               // Event Source Select Register
#define EPWM_O_PCCTL              0x14U        // PWM Chopper Control Register
#define EPWM_O_GLDCTL             0x34U        // Global PWM Load Control
                                               // Register
#define EPWM_O_GLDCFG             0x35U        // Global PWM Load Config
                                               // Register
#define EPWM_O_XLINK              0x38U        // EPWMx Link Register
#define EPWM_O_AQCTLA             0x40U        // Action Qualifier Control
                                               // Register For Output A
#define EPWM_O_AQCTLA2            0x41U        // Additional Action Qualifier
                                               // Control Register For Output A
#define EPWM_O_AQCTLB             0x42U        // Action Qualifier Control
                                               // Register For Output B
#define EPWM_O_AQCTLB2            0x43U        // Additional Action Qualifier
                                               // Control Register For Output B
#define EPWM_O_AQSFRC             0x47U        // Action Qualifier Software
                                               // Force Register
#define EPWM_O_AQCSFRC            0x49U        // Action Qualifier Continuous
                                               // S/W Force Register
#define EPWM_O_DBRED              0x51U        // Dead-Band Generator Rising
                                               // Edge Delay High Resolution
                                               // Mirror Register
#define EPWM_O_DBFED              0x53U        // Dead-Band Generator Falling
                                               // Edge Delay Count Register
#define EPWM_O_TBPHS              0x60U        // Time Base Phase High
#define EPWM_O_TBPRD              0x63U        // Time Base Period Register
#define EPWM_O_CMPA               0x6AU        // Counter Compare A Register
#define EPWM_O_CMPB               0x6CU        // Compare B Register
#define EPWM_O_CMPC               0x6FU        // Counter Compare C Register
#define EPWM_O_CMPD               0x71U        // Counter Compare D Register
#define EPWM_O_GLDCTL2            0x74U        // Global PWM Load Control
                                               // Register 2
#define EPWM_O_TZSEL              0x80U        // Trip Zone Select Register
#define EPWM_O_TZDCSEL            0x82U        // Trip Zone Digital Comparator
                                               // Select Register
#define EPWM_O_TZCTL              0x84U        // Trip Zone Control Register
#define EPWM_O_TZCTL2             0x85U        // Additional Trip Zone Control
                                               // Register
#define EPWM_O_TZCTLDCA           0x86U        // Trip Zone Control Register
                                               // Digital Compare A
#define EPWM_O_TZCTLDCB           0x87U        // Trip Zone Control Register
                                               // Digital Compare B
#define EPWM_O_TZEINT             0x8DU        // Trip Zone Enable Interrupt
                                               // Register
#define EPWM_O_TZFLG              0x93U        // Trip Zone Flag Register
#define EPWM_O_TZCBCFLG           0x94U        // Trip Zone CBC Flag Register
#define EPWM_O_TZOSTFLG           0x95U        // Trip Zone OST Flag Register
#define EPWM_O_TZCLR              0x97U        // Trip Zone Clear Register
#define EPWM_O_TZCBCCLR           0x98U        // Trip Zone CBC Clear Register
#define EPWM_O_TZOSTCLR           0x99U        // Trip Zone OST Clear Register
#define EPWM_O_TZFRC              0x9BU        // Trip Zone Force Register
#define EPWM_O_ETSEL              0xA4U        // Event Trigger Selection
                                               // Register
#define EPWM_O_ETPS               0xA6U        // Event Trigger Pre-Scale
                                               // Register
#define EPWM_O_ETFLG              0xA8U        // Event Trigger Flag Register
#define EPWM_O_ETCLR              0xAAU        // Event Trigger Clear Register
#define EPWM_O_ETFRC              0xACU        // Event Trigger Force Register
#define EPWM_O_ETINTPS            0xAEU        // Event-Trigger Interrupt
                                               // Pre-Scale Register
#define EPWM_O_ETSOCPS            0xB0U        // Event-Trigger SOC Pre-Scale
                                               // Register
#define EPWM_O_ETCNTINITCTL       0xB2U        // Event-Trigger Counter
                                               // Initialization Control Register
#define EPWM_O_ETCNTINIT          0xB4U        // Event-Trigger Counter
                                               // Initialization Register
#define EPWM_O_DCTRIPSEL          0xC0U        // Digital Compare Trip Select
                                               // Register
#define EPWM_O_DCACTL             0xC3U        // Digital Compare A Control
                                               // Register
#define EPWM_O_DCBCTL             0xC4U        // Digital Compare B Control
                                               // Register
#define EPWM_O_DCFCTL             0xC7U        // Digital Compare Filter
                                               // Control Register
#define EPWM_O_DCCAPCTL           0xC8U        // Digital Compare Capture
                                               // Control Register
#define EPWM_O_DCFOFFSET          0xC9U        // Digital Compare Filter Offset
                                               // Register
#define EPWM_O_DCFOFFSETCNT       0xCAU        // Digital Compare Filter Offset
                                               // Counter Register
#define EPWM_O_DCFWINDOW          0xCBU        // Digital Compare Filter Window
                                               // Register
#define EPWM_O_DCFWINDOWCNT       0xCCU        // Digital Compare Filter Window
                                               // Counter Register
#define EPWM_O_DCCAP              0xCFU        // Digital Compare Counter
                                               // Capture Register
#define EPWM_O_DCAHTRIPSEL        0xD2U        // Digital Compare AH Trip
                                               // Select
#define EPWM_O_DCALTRIPSEL        0xD3U        // Digital Compare AL Trip
                                               // Select
#define EPWM_O_DCBHTRIPSEL        0xD4U        // Digital Compare BH Trip
                                               // Select
#define EPWM_O_DCBLTRIPSEL        0xD5U        // Digital Compare BL Trip
                                               // Select

//*****************************************************************************
//
// The following are defines for the bit fields in the TBCTL register
//
//*****************************************************************************
#define EPWM_TBCTL_CTRMODE_S      0U
#define EPWM_TBCTL_CTRMODE_M      0x3U         // Counter Mode
#define EPWM_TBCTL_PHSEN          0x4U         // Phase Load Enable
#define EPWM_TBCTL_PRDLD          0x8U         // Active Period Load
#define EPWM_TBCTL_SYNCOSEL_S     4U
#define EPWM_TBCTL_SYNCOSEL_M     0x30U        // Sync Output Select
#define EPWM_TBCTL_SWFSYNC        0x40U        // Software Force Sync Pulse
#define EPWM_TBCTL_HSPCLKDIV_S    7U
#define EPWM_TBCTL_HSPCLKDIV_M    0x380U       // High Speed TBCLK Pre-scaler
#define EPWM_TBCTL_CLKDIV_S       10U
#define EPWM_TBCTL_CLKDIV_M       0x1C00U      // Time Base Clock Pre-scaler
#define EPWM_TBCTL_PHSDIR         0x2000U      // Phase Direction Bit
#define EPWM_TBCTL_FREE_SOFT_S    14U
#define EPWM_TBCTL_FREE_SOFT_M    0xC000U      // Emulation Mode Bits

//*****************************************************************************
//
// The following are defines for the bit fields in the TBCTL2 register
//
//*****************************************************************************
#define EPWM_TBCTL2_SELFCLRTRREM  0x20U        // Self clear Translator
                                               // reminder
#define EPWM_TBCTL2_OSHTSYNCMODE  0x40U        // One shot sync mode
#define EPWM_TBCTL2_OSHTSYNC      0x80U        // One shot sync
#define EPWM_TBCTL2_SYNCOSELX_S   12U
#define EPWM_TBCTL2_SYNCOSELX_M   0x3000U      // Syncout selection
#define EPWM_TBCTL2_PRDLDSYNC_S   14U
#define EPWM_TBCTL2_PRDLDSYNC_M   0xC000U      // PRD Shadow to Active Load on
                                               // SYNC Event

//*****************************************************************************
//
// The following are defines for the bit fields in the TBSTS register
//
//*****************************************************************************
#define EPWM_TBSTS_CTRDIR         0x1U         // Counter Direction Status
#define EPWM_TBSTS_SYNCI          0x2U         // External Input Sync Status
#define EPWM_TBSTS_CTRMAX         0x4U         // Counter Max Latched Status

//*****************************************************************************
//
// The following are defines for the bit fields in the CMPCTL register
//
//*****************************************************************************
#define EPWM_CMPCTL_LOADAMODE_S   0U
#define EPWM_CMPCTL_LOADAMODE_M   0x3U         // Active Compare A Load
#define EPWM_CMPCTL_LOADBMODE_S   2U
#define EPWM_CMPCTL_LOADBMODE_M   0xCU         // Active Compare B Load
#define EPWM_CMPCTL_SHDWAMODE     0x10U        // Compare A Register Block
                                               // Operating Mode
#define EPWM_CMPCTL_SHDWBMODE     0x40U        // Compare B Register Block
                                               // Operating Mode
#define EPWM_CMPCTL_SHDWAFULL     0x100U       // Compare A Shadow Register
                                               // Full Status
#define EPWM_CMPCTL_SHDWBFULL     0x200U       // Compare B Shadow Register
                                               // Full Status
#define EPWM_CMPCTL_LOADASYNC_S   10U
#define EPWM_CMPCTL_LOADASYNC_M   0xC00U       // Active Compare A Load on SYNC
#define EPWM_CMPCTL_LOADBSYNC_S   12U
#define EPWM_CMPCTL_LOADBSYNC_M   0x3000U      // Active Compare B Load on SYNC

//*****************************************************************************
//
// The following are defines for the bit fields in the CMPCTL2 register
//
//*****************************************************************************
#define EPWM_CMPCTL2_LOADCMODE_S  0U
#define EPWM_CMPCTL2_LOADCMODE_M  0x3U         // Active Compare C Load
#define EPWM_CMPCTL2_LOADDMODE_S  2U
#define EPWM_CMPCTL2_LOADDMODE_M  0xCU         // Active Compare D load
#define EPWM_CMPCTL2_SHDWCMODE    0x10U        // Compare C Block Operating
                                               // Mode
#define EPWM_CMPCTL2_SHDWDMODE    0x40U        // Compare D Block Operating
                                               // Mode
#define EPWM_CMPCTL2_LOADCSYNC_S  10U
#define EPWM_CMPCTL2_LOADCSYNC_M  0xC00U       // Active Compare C Load on SYNC
#define EPWM_CMPCTL2_LOADDSYNC_S  12U
#define EPWM_CMPCTL2_LOADDSYNC_M  0x3000U      // Active Compare D Load on SYNC

//*****************************************************************************
//
// The following are defines for the bit fields in the DBCTL register
//
//*****************************************************************************
#define EPWM_DBCTL_OUT_MODE_S     0U
#define EPWM_DBCTL_OUT_MODE_M     0x3U         // Dead Band Output Mode Control
#define EPWM_DBCTL_POLSEL_S       2U
#define EPWM_DBCTL_POLSEL_M       0xCU         // Polarity Select Control
#define EPWM_DBCTL_IN_MODE_S      4U
#define EPWM_DBCTL_IN_MODE_M      0x30U        // Dead Band Input Select Mode
                                               // Control
#define EPWM_DBCTL_LOADREDMODE_S  6U
#define EPWM_DBCTL_LOADREDMODE_M  0xC0U        // Active DBRED Load Mode
#define EPWM_DBCTL_LOADFEDMODE_S  8U
#define EPWM_DBCTL_LOADFEDMODE_M  0x300U       // Active DBFED Load Mode
#define EPWM_DBCTL_SHDWDBREDMODE  0x400U       // DBRED Block Operating Mode
#define EPWM_DBCTL_SHDWDBFEDMODE  0x800U       // DBFED Block Operating Mode
#define EPWM_DBCTL_OUTSWAP_S      12U
#define EPWM_DBCTL_OUTSWAP_M      0x3000U      // Dead Band Output Swap Control
#define EPWM_DBCTL_DEDB_MODE      0x4000U      // Dead Band Dual-Edge B Mode
                                               // Control
#define EPWM_DBCTL_HALFCYCLE      0x8000U      // Half Cycle Clocking Enable

//*****************************************************************************
//
// The following are defines for the bit fields in the DBCTL2 register
//
//*****************************************************************************
#define EPWM_DBCTL2_LOADDBCTLMODE_S  0U
#define EPWM_DBCTL2_LOADDBCTLMODE_M  0x3U         // DBCTL Load from Shadow Mode
                                               // Select
#define EPWM_DBCTL2_SHDWDBCTLMODE  0x4U         // DBCTL Load mode Select

//*****************************************************************************
//
// The following are defines for the bit fields in the AQCTL register
//
//*****************************************************************************
#define EPWM_AQCTL_LDAQAMODE_S    0U
#define EPWM_AQCTL_LDAQAMODE_M    0x3U         // Action Qualifier A Load
                                               // Select
#define EPWM_AQCTL_LDAQBMODE_S    2U
#define EPWM_AQCTL_LDAQBMODE_M    0xCU         // Action Qualifier B Load
                                               // Select
#define EPWM_AQCTL_SHDWAQAMODE    0x10U        // Action Qualifer A Operating
                                               // Mode
#define EPWM_AQCTL_SHDWAQBMODE    0x40U        // Action Qualifier B Operating
                                               // Mode
#define EPWM_AQCTL_LDAQASYNC_S    8U
#define EPWM_AQCTL_LDAQASYNC_M    0x300U       // AQCTLA Register Load on SYNC
#define EPWM_AQCTL_LDAQBSYNC_S    10U
#define EPWM_AQCTL_LDAQBSYNC_M    0xC00U       // AQCTLB Register Load on SYNC

//*****************************************************************************
//
// The following are defines for the bit fields in the AQTSRCSEL register
//
//*****************************************************************************
#define EPWM_AQTSRCSEL_T1SEL_S    0U
#define EPWM_AQTSRCSEL_T1SEL_M    0xFU         // T1 Event Source Select Bits
#define EPWM_AQTSRCSEL_T2SEL_S    4U
#define EPWM_AQTSRCSEL_T2SEL_M    0xF0U        // T2 Event Source Select Bits

//*****************************************************************************
//
// The following are defines for the bit fields in the PCCTL register
//
//*****************************************************************************
#define EPWM_PCCTL_CHPEN          0x1U         // PWM chopping enable
#define EPWM_PCCTL_OSHTWTH_S      1U
#define EPWM_PCCTL_OSHTWTH_M      0x1EU        // One-shot pulse width
#define EPWM_PCCTL_CHPFREQ_S      5U
#define EPWM_PCCTL_CHPFREQ_M      0xE0U        // Chopping clock frequency
#define EPWM_PCCTL_CHPDUTY_S      8U
#define EPWM_PCCTL_CHPDUTY_M      0x700U       // Chopping clock Duty cycle

//*****************************************************************************
//
// The following are defines for the bit fields in the GLDCTL register
//
//*****************************************************************************
#define EPWM_GLDCTL_GLD           0x1U         // Global Shadow to Active load
                                               // event control
#define EPWM_GLDCTL_GLDMODE_S     1U
#define EPWM_GLDCTL_GLDMODE_M     0x1EU        // Shadow to Active Global Load
                                               // Pulse Selection
#define EPWM_GLDCTL_OSHTMODE      0x20U        // One Shot Load mode control
                                               // bit
#define EPWM_GLDCTL_GLDPRD_S      7U
#define EPWM_GLDCTL_GLDPRD_M      0x380U       // Global Reload Strobe Period
                                               // Select Register
#define EPWM_GLDCTL_GLDCNT_S      10U
#define EPWM_GLDCTL_GLDCNT_M      0x1C00U      // Global Reload Strobe Counter
                                               // Register

//*****************************************************************************
//
// The following are defines for the bit fields in the GLDCFG register
//
//*****************************************************************************
#define EPWM_GLDCFG_TBPRD_TBPRDHR  0x1U         // Global load event
                                               // configuration for TBPRD:TBPRDHR
#define EPWM_GLDCFG_CMPA_CMPAHR   0x2U         // Global load event
                                               // configuration for CMPA:CMPAHR
#define EPWM_GLDCFG_CMPB_CMPBHR   0x4U         // Global load event
                                               // configuration for CMPB:CMPBHR
#define EPWM_GLDCFG_CMPC          0x8U         // Global load event
                                               // configuration for CMPC
#define EPWM_GLDCFG_CMPD          0x10U        // Global load event
                                               // configuration for CMPD
#define EPWM_GLDCFG_DBRED_DBREDHR  0x20U        // Global load event
                                               // configuration for DBRED:DBREDHR
#define EPWM_GLDCFG_DBFED_DBFEDHR  0x40U        // Global load event
                                               // configuration for DBFED:DBFEDHR
#define EPWM_GLDCFG_DBCTL         0x80U        // Global load event
                                               // configuration for DBCTL
#define EPWM_GLDCFG_AQCTLA_AQCTLA2  0x100U       // Global load event
                                               // configuration for AQCTLA/A2
#define EPWM_GLDCFG_AQCTLB_AQCTLB2  0x200U       // Global load event
                                               // configuration for AQCTLB/B2
#define EPWM_GLDCFG_AQCSFRC       0x400U       // Global load event
                                               // configuration for AQCSFRC

//*****************************************************************************
//
// The following are defines for the bit fields in the EPWMXLINK register
//
//*****************************************************************************
#define EPWM_XLINK_TBPRDLINK_S    0U
#define EPWM_XLINK_TBPRDLINK_M    0xFU         // TBPRD:TBPRDHR  Link
#define EPWM_XLINK_CMPALINK_S     4U
#define EPWM_XLINK_CMPALINK_M     0xF0U        // CMPA:CMPAHR Link
#define EPWM_XLINK_CMPBLINK_S     8U
#define EPWM_XLINK_CMPBLINK_M     0xF00U       // CMPB:CMPBHR Link
#define EPWM_XLINK_CMPCLINK_S     12U
#define EPWM_XLINK_CMPCLINK_M     0xF000U      // CMPC Link
#define EPWM_XLINK_CMPDLINK_S     16U
#define EPWM_XLINK_CMPDLINK_M     0xF0000U     // CMPD Link
#define EPWM_XLINK_GLDCTL2LINK_S  28U
#define EPWM_XLINK_GLDCTL2LINK_M  0xF0000000U  // GLDCTL2 Link

//*****************************************************************************
//
// The following are defines for the bit fields in the AQCTLA register
//
//*****************************************************************************
#define EPWM_AQCTLA_ZRO_S         0U
#define EPWM_AQCTLA_ZRO_M         0x3U         // Action Counter = Zero
#define EPWM_AQCTLA_PRD_S         2U
#define EPWM_AQCTLA_PRD_M         0xCU         // Action Counter = Period
#define EPWM_AQCTLA_CAU_S         4U
#define EPWM_AQCTLA_CAU_M         0x30U        // Action Counter = Compare A Up
#define EPWM_AQCTLA_CAD_S         6U
#define EPWM_AQCTLA_CAD_M         0xC0U        // Action Counter = Compare A
                                               // Down
#define EPWM_AQCTLA_CBU_S         8U
#define EPWM_AQCTLA_CBU_M         0x300U       // Action Counter = Compare B Up
#define EPWM_AQCTLA_CBD_S         10U
#define EPWM_AQCTLA_CBD_M         0xC00U       // Action Counter = Compare B
                                               // Down

//*****************************************************************************
//
// The following are defines for the bit fields in the AQCTLA2 register
//
//*****************************************************************************
#define EPWM_AQCTLA2_T1U_S        0U
#define EPWM_AQCTLA2_T1U_M        0x3U         // Action when event occurs on
                                               // T1 in UP-Count
#define EPWM_AQCTLA2_T1D_S        2U
#define EPWM_AQCTLA2_T1D_M        0xCU         // Action when event occurs on
                                               // T1 in DOWN-Count
#define EPWM_AQCTLA2_T2U_S        4U
#define EPWM_AQCTLA2_T2U_M        0x30U        // Action when event occurs on
                                               // T2 in UP-Count
#define EPWM_AQCTLA2_T2D_S        6U
#define EPWM_AQCTLA2_T2D_M        0xC0U        // Action when event occurs on
                                               // T2 in DOWN-Count

//*****************************************************************************
//
// The following are defines for the bit fields in the AQCTLB register
//
//*****************************************************************************
#define EPWM_AQCTLB_ZRO_S         0U
#define EPWM_AQCTLB_ZRO_M         0x3U         // Action Counter = Zero
#define EPWM_AQCTLB_PRD_S         2U
#define EPWM_AQCTLB_PRD_M         0xCU         // Action Counter = Period
#define EPWM_AQCTLB_CAU_S         4U
#define EPWM_AQCTLB_CAU_M         0x30U        // Action Counter = Compare A Up
#define EPWM_AQCTLB_CAD_S         6U
#define EPWM_AQCTLB_CAD_M         0xC0U        // Action Counter = Compare A
                                               // Down
#define EPWM_AQCTLB_CBU_S         8U
#define EPWM_AQCTLB_CBU_M         0x300U       // Action Counter = Compare B Up
#define EPWM_AQCTLB_CBD_S         10U
#define EPWM_AQCTLB_CBD_M         0xC00U       // Action Counter = Compare B
                                               // Down

//*****************************************************************************
//
// The following are defines for the bit fields in the AQCTLB2 register
//
//*****************************************************************************
#define EPWM_AQCTLB2_T1U_S        0U
#define EPWM_AQCTLB2_T1U_M        0x3U         // Action when event occurs on
                                               // T1 in UP-Count
#define EPWM_AQCTLB2_T1D_S        2U
#define EPWM_AQCTLB2_T1D_M        0xCU         // Action when event occurs on
                                               // T1 in DOWN-Count
#define EPWM_AQCTLB2_T2U_S        4U
#define EPWM_AQCTLB2_T2U_M        0x30U        // Action when event occurs on
                                               // T2 in UP-Count
#define EPWM_AQCTLB2_T2D_S        6U
#define EPWM_AQCTLB2_T2D_M        0xC0U        // Action when event occurs on
                                               // T2 in DOWN-Count

//*****************************************************************************
//
// The following are defines for the bit fields in the AQSFRC register
//
//*****************************************************************************
#define EPWM_AQSFRC_ACTSFA_S      0U
#define EPWM_AQSFRC_ACTSFA_M      0x3U         // Action when One-time SW Force
                                               // A Invoked
#define EPWM_AQSFRC_OTSFA         0x4U         // One-time SW Force A Output
#define EPWM_AQSFRC_ACTSFB_S      3U
#define EPWM_AQSFRC_ACTSFB_M      0x18U        // Action when One-time SW Force
                                               // B Invoked
#define EPWM_AQSFRC_OTSFB         0x20U        // One-time SW Force A Output
#define EPWM_AQSFRC_RLDCSF_S      6U
#define EPWM_AQSFRC_RLDCSF_M      0xC0U        // Reload from Shadow Options

//*****************************************************************************
//
// The following are defines for the bit fields in the AQCSFRC register
//
//*****************************************************************************
#define EPWM_AQCSFRC_CSFA_S       0U
#define EPWM_AQCSFRC_CSFA_M       0x3U         // Continuous Software Force on
                                               // output A
#define EPWM_AQCSFRC_CSFB_S       2U
#define EPWM_AQCSFRC_CSFB_M       0xCU         // Continuous Software Force on
                                               // output B

//*****************************************************************************
//
// The following are defines for the bit fields in the DBRED register
//
//*****************************************************************************
#define EPWM_DBRED_DBRED_S        0U
#define EPWM_DBRED_DBRED_M        0x3FFFU      // Rising edge delay value

//*****************************************************************************
//
// The following are defines for the bit fields in the DBFED register
//
//*****************************************************************************
#define EPWM_DBFED_DBFED_S        0U
#define EPWM_DBFED_DBFED_M        0x3FFFU      // Falling edge delay value

//*****************************************************************************
//
// The following are defines for the bit fields in the TBPHS register
//
//*****************************************************************************
#define EPWM_TBPHS_TBPHS_S        16U
#define EPWM_TBPHS_TBPHS_M        0xFFFF0000U  // Phase Offset Register

//*****************************************************************************
//
// The following are defines for the bit fields in the CMPA register
//
//*****************************************************************************
#define EPWM_CMPA_CMPA_S          16U
#define EPWM_CMPA_CMPA_M          0xFFFF0000U  // Compare A Register

//*****************************************************************************
//
// The following are defines for the bit fields in the CMPB register
//
//*****************************************************************************
#define EPWM_CMPB_CMPB_S          16U
#define EPWM_CMPB_CMPB_M          0xFFFF0000U  // Compare B Register

//*****************************************************************************
//
// The following are defines for the bit fields in the GLDCTL2 register
//
//*****************************************************************************
#define EPWM_GLDCTL2_OSHTLD       0x1U         // Enable reload event in one
                                               // shot mode
#define EPWM_GLDCTL2_GFRCLD       0x2U         // Force reload event in one
                                               // shot mode

//*****************************************************************************
//
// The following are defines for the bit fields in the TZSEL register
//
//*****************************************************************************
#define EPWM_TZSEL_CBC1           0x1U         // TZ1 CBC select
#define EPWM_TZSEL_CBC2           0x2U         // TZ2 CBC select
#define EPWM_TZSEL_CBC3           0x4U         // TZ3 CBC select
#define EPWM_TZSEL_CBC4           0x8U         // TZ4 CBC select
#define EPWM_TZSEL_CBC5           0x10U        // TZ5 CBC select
#define EPWM_TZSEL_CBC6           0x20U        // TZ6 CBC select
#define EPWM_TZSEL_DCAEVT2        0x40U        // DCAEVT2 CBC select
#define EPWM_TZSEL_DCBEVT2        0x80U        // DCBEVT2 CBC select
#define EPWM_TZSEL_OSHT1          0x100U       // One-shot TZ1 select
#define EPWM_TZSEL_OSHT2          0x200U       // One-shot TZ2 select
#define EPWM_TZSEL_OSHT3          0x400U       // One-shot TZ3 select
#define EPWM_TZSEL_OSHT4          0x800U       // One-shot TZ4 select
#define EPWM_TZSEL_OSHT5          0x1000U      // One-shot TZ5 select
#define EPWM_TZSEL_OSHT6          0x2000U      // One-shot TZ6 select
#define EPWM_TZSEL_DCAEVT1        0x4000U      // One-shot DCAEVT1 select
#define EPWM_TZSEL_DCBEVT1        0x8000U      // One-shot DCBEVT1 select

//*****************************************************************************
//
// The following are defines for the bit fields in the TZDCSEL register
//
//*****************************************************************************
#define EPWM_TZDCSEL_DCAEVT1_S    0U
#define EPWM_TZDCSEL_DCAEVT1_M    0x7U         // Digital Compare Output A
                                               // Event 1
#define EPWM_TZDCSEL_DCAEVT2_S    3U
#define EPWM_TZDCSEL_DCAEVT2_M    0x38U        // Digital Compare Output A
                                               // Event 2
#define EPWM_TZDCSEL_DCBEVT1_S    6U
#define EPWM_TZDCSEL_DCBEVT1_M    0x1C0U       // Digital Compare Output B
                                               // Event 1
#define EPWM_TZDCSEL_DCBEVT2_S    9U
#define EPWM_TZDCSEL_DCBEVT2_M    0xE00U       // Digital Compare Output B
                                               // Event 2

//*****************************************************************************
//
// The following are defines for the bit fields in the TZCTL register
//
//*****************************************************************************
#define EPWM_TZCTL_TZA_S          0U
#define EPWM_TZCTL_TZA_M          0x3U         // TZ1 to TZ6 Trip Action On
                                               // EPWMxA
#define EPWM_TZCTL_TZB_S          2U
#define EPWM_TZCTL_TZB_M          0xCU         // TZ1 to TZ6 Trip Action On
                                               // EPWMxB
#define EPWM_TZCTL_DCAEVT1_S      4U
#define EPWM_TZCTL_DCAEVT1_M      0x30U        // EPWMxA action on DCAEVT1
#define EPWM_TZCTL_DCAEVT2_S      6U
#define EPWM_TZCTL_DCAEVT2_M      0xC0U        // EPWMxA action on DCAEVT2
#define EPWM_TZCTL_DCBEVT1_S      8U
#define EPWM_TZCTL_DCBEVT1_M      0x300U       // EPWMxB action on DCBEVT1
#define EPWM_TZCTL_DCBEVT2_S      10U
#define EPWM_TZCTL_DCBEVT2_M      0xC00U       // EPWMxB action on DCBEVT2

//*****************************************************************************
//
// The following are defines for the bit fields in the TZCTL2 register
//
//*****************************************************************************
#define EPWM_TZCTL2_TZAU_S        0U
#define EPWM_TZCTL2_TZAU_M        0x7U         // Trip Action On EPWMxA while
                                               // Count direction is UP
#define EPWM_TZCTL2_TZAD_S        3U
#define EPWM_TZCTL2_TZAD_M        0x38U        // Trip Action On EPWMxA while
                                               // Count direction is DOWN
#define EPWM_TZCTL2_TZBU_S        6U
#define EPWM_TZCTL2_TZBU_M        0x1C0U       // Trip Action On EPWMxB while
                                               // Count direction is UP
#define EPWM_TZCTL2_TZBD_S        9U
#define EPWM_TZCTL2_TZBD_M        0xE00U       // Trip Action On EPWMxB while
                                               // Count direction is DOWN
#define EPWM_TZCTL2_ETZE          0x8000U      // TZCTL2 Enable

//*****************************************************************************
//
// The following are defines for the bit fields in the TZCTLDCA register
//
//*****************************************************************************
#define EPWM_TZCTLDCA_DCAEVT1U_S  0U
#define EPWM_TZCTLDCA_DCAEVT1U_M  0x7U         // DCAEVT1 Action On EPWMxA
                                               // while Count direction is UP
#define EPWM_TZCTLDCA_DCAEVT1D_S  3U
#define EPWM_TZCTLDCA_DCAEVT1D_M  0x38U        // DCAEVT1 Action On EPWMxA
                                               // while Count direction is DOWN
#define EPWM_TZCTLDCA_DCAEVT2U_S  6U
#define EPWM_TZCTLDCA_DCAEVT2U_M  0x1C0U       // DCAEVT2 Action On EPWMxA
                                               // while Count direction is UP
#define EPWM_TZCTLDCA_DCAEVT2D_S  9U
#define EPWM_TZCTLDCA_DCAEVT2D_M  0xE00U       // DCAEVT2 Action On EPWMxA
                                               // while Count direction is DOWN

//*****************************************************************************
//
// The following are defines for the bit fields in the TZCTLDCB register
//
//*****************************************************************************
#define EPWM_TZCTLDCB_DCBEVT1U_S  0U
#define EPWM_TZCTLDCB_DCBEVT1U_M  0x7U         // DCBEVT1 Action On EPWMxA
                                               // while Count direction is UP
#define EPWM_TZCTLDCB_DCBEVT1D_S  3U
#define EPWM_TZCTLDCB_DCBEVT1D_M  0x38U        // DCBEVT1 Action On EPWMxA
                                               // while Count direction is DOWN
#define EPWM_TZCTLDCB_DCBEVT2U_S  6U
#define EPWM_TZCTLDCB_DCBEVT2U_M  0x1C0U       // DCBEVT2 Action On EPWMxA
                                               // while Count direction is UP
#define EPWM_TZCTLDCB_DCBEVT2D_S  9U
#define EPWM_TZCTLDCB_DCBEVT2D_M  0xE00U       // DCBEVT2 Action On EPWMxA
                                               // while Count direction is DOWN

//*****************************************************************************
//
// The following are defines for the bit fields in the TZEINT register
//
//*****************************************************************************
#define EPWM_TZEINT_CBC           0x2U         // Trip Zones Cycle By Cycle Int
                                               // Enable
#define EPWM_TZEINT_OST           0x4U         // Trip Zones One Shot Int
                                               // Enable
#define EPWM_TZEINT_DCAEVT1       0x8U         // Digital Compare A Event 1 Int
                                               // Enable
#define EPWM_TZEINT_DCAEVT2       0x10U        // Digital Compare A Event 2 Int
                                               // Enable
#define EPWM_TZEINT_DCBEVT1       0x20U        // Digital Compare B Event 1 Int
                                               // Enable
#define EPWM_TZEINT_DCBEVT2       0x40U        // Digital Compare B Event 2 Int
                                               // Enable

//*****************************************************************************
//
// The following are defines for the bit fields in the TZFLG register
//
//*****************************************************************************
#define EPWM_TZFLG_INT            0x1U         // Global Int Status Flag
#define EPWM_TZFLG_CBC            0x2U         // Trip Zones Cycle By Cycle
                                               // Flag
#define EPWM_TZFLG_OST            0x4U         // Trip Zones One Shot Flag
#define EPWM_TZFLG_DCAEVT1        0x8U         // Digital Compare A Event 1
                                               // Flag
#define EPWM_TZFLG_DCAEVT2        0x10U        // Digital Compare A Event 2
                                               // Flag
#define EPWM_TZFLG_DCBEVT1        0x20U        // Digital Compare B Event 1
                                               // Flag
#define EPWM_TZFLG_DCBEVT2        0x40U        // Digital Compare B Event 2
                                               // Flag

//*****************************************************************************
//
// The following are defines for the bit fields in the TZCBCFLG register
//
//*****************************************************************************
#define EPWM_TZCBCFLG_CBC1        0x1U         // Latched Status Flag for CBC1
                                               // Trip Latch
#define EPWM_TZCBCFLG_CBC2        0x2U         // Latched Status Flag for CBC2
                                               // Trip Latch
#define EPWM_TZCBCFLG_CBC3        0x4U         // Latched Status Flag for CBC3
                                               // Trip Latch
#define EPWM_TZCBCFLG_CBC4        0x8U         // Latched Status Flag for CBC4
                                               // Trip Latch
#define EPWM_TZCBCFLG_CBC5        0x10U        // Latched Status Flag for CBC5
                                               // Trip Latch
#define EPWM_TZCBCFLG_CBC6        0x20U        // Latched Status Flag for CBC6
                                               // Trip Latch
#define EPWM_TZCBCFLG_DCAEVT2     0x40U        // Latched Status Flag for
                                               // Digital Compare Output A Event 2
#define EPWM_TZCBCFLG_DCBEVT2     0x80U        // Latched Status Flag for
                                               // Digital Compare Output B Event 2

//*****************************************************************************
//
// The following are defines for the bit fields in the TZOSTFLG register
//
//*****************************************************************************
#define EPWM_TZOSTFLG_OST1        0x1U         // Latched Status Flag for OST1
                                               // Trip Latch
#define EPWM_TZOSTFLG_OST2        0x2U         // Latched Status Flag for OST2
                                               // Trip Latch
#define EPWM_TZOSTFLG_OST3        0x4U         // Latched Status Flag for OST3
                                               // Trip Latch
#define EPWM_TZOSTFLG_OST4        0x8U         // Latched Status Flag for OST4
                                               // Trip Latch
#define EPWM_TZOSTFLG_OST5        0x10U        // Latched Status Flag for OST5
                                               // Trip Latch
#define EPWM_TZOSTFLG_OST6        0x20U        // Latched Status Flag for OST6
                                               // Trip Latch
#define EPWM_TZOSTFLG_DCAEVT1     0x40U        // Latched Status Flag for
                                               // Digital Compare Output A Event 1
#define EPWM_TZOSTFLG_DCBEVT1     0x80U        // Latched Status Flag for
                                               // Digital Compare Output B Event 1

//*****************************************************************************
//
// The following are defines for the bit fields in the TZCLR register
//
//*****************************************************************************
#define EPWM_TZCLR_INT            0x1U         // Global Interrupt Clear Flag
#define EPWM_TZCLR_CBC            0x2U         // Cycle-By-Cycle Flag Clear
#define EPWM_TZCLR_OST            0x4U         // One-Shot Flag Clear
#define EPWM_TZCLR_DCAEVT1        0x8U         // DCAVET1 Flag Clear
#define EPWM_TZCLR_DCAEVT2        0x10U        // DCAEVT2 Flag Clear
#define EPWM_TZCLR_DCBEVT1        0x20U        // DCBEVT1 Flag Clear
#define EPWM_TZCLR_DCBEVT2        0x40U        // DCBEVT2 Flag Clear
#define EPWM_TZCLR_CBCPULSE_S     14U
#define EPWM_TZCLR_CBCPULSE_M     0xC000U      // Clear Pulse for CBC Trip
                                               // Latch

//*****************************************************************************
//
// The following are defines for the bit fields in the TZCBCCLR register
//
//*****************************************************************************
#define EPWM_TZCBCCLR_CBC1        0x1U         // Clear Flag for Cycle-By-Cycle
                                               // (CBC1) Trip Latch
#define EPWM_TZCBCCLR_CBC2        0x2U         // Clear Flag for Cycle-By-Cycle
                                               // (CBC2) Trip Latch
#define EPWM_TZCBCCLR_CBC3        0x4U         // Clear Flag for Cycle-By-Cycle
                                               // (CBC3) Trip Latch
#define EPWM_TZCBCCLR_CBC4        0x8U         // Clear Flag for Cycle-By-Cycle
                                               // (CBC4) Trip Latch
#define EPWM_TZCBCCLR_CBC5        0x10U        // Clear Flag for Cycle-By-Cycle
                                               // (CBC5) Trip Latch
#define EPWM_TZCBCCLR_CBC6        0x20U        // Clear Flag for Cycle-By-Cycle
                                               // (CBC6) Trip Latch
#define EPWM_TZCBCCLR_DCAEVT2     0x40U        // Clear Flag forDCAEVT2
                                               // selected for CBC
#define EPWM_TZCBCCLR_DCBEVT2     0x80U        // Clear Flag for DCBEVT2
                                               // selected for CBC

//*****************************************************************************
//
// The following are defines for the bit fields in the TZOSTCLR register
//
//*****************************************************************************
#define EPWM_TZOSTCLR_OST1        0x1U         // Clear Flag for Oneshot (OST1)
                                               // Trip Latch
#define EPWM_TZOSTCLR_OST2        0x2U         // Clear Flag for Oneshot (OST2)
                                               // Trip Latch
#define EPWM_TZOSTCLR_OST3        0x4U         // Clear Flag for Oneshot (OST3)
                                               // Trip Latch
#define EPWM_TZOSTCLR_OST4        0x8U         // Clear Flag for Oneshot (OST4)
                                               // Trip Latch
#define EPWM_TZOSTCLR_OST5        0x10U        // Clear Flag for Oneshot (OST5)
                                               // Trip Latch
#define EPWM_TZOSTCLR_OST6        0x20U        // Clear Flag for Oneshot (OST6)
                                               // Trip Latch
#define EPWM_TZOSTCLR_DCAEVT1     0x40U        // Clear Flag for DCAEVT1
                                               // selected for OST
#define EPWM_TZOSTCLR_DCBEVT1     0x80U        // Clear Flag for DCBEVT1
                                               // selected for OST

//*****************************************************************************
//
// The following are defines for the bit fields in the TZFRC register
//
//*****************************************************************************
#define EPWM_TZFRC_CBC            0x2U         // Force Trip Zones Cycle By
                                               // Cycle Event
#define EPWM_TZFRC_OST            0x4U         // Force Trip Zones One Shot
                                               // Event
#define EPWM_TZFRC_DCAEVT1        0x8U         // Force Digital Compare A Event
                                               // 1
#define EPWM_TZFRC_DCAEVT2        0x10U        // Force Digital Compare A Event
                                               // 2
#define EPWM_TZFRC_DCBEVT1        0x20U        // Force Digital Compare B Event
                                               // 1
#define EPWM_TZFRC_DCBEVT2        0x40U        // Force Digital Compare B Event
                                               // 2

//*****************************************************************************
//
// The following are defines for the bit fields in the ETSEL register
//
//*****************************************************************************
#define EPWM_ETSEL_INTSEL_S       0U
#define EPWM_ETSEL_INTSEL_M       0x7U         // EPWMxINTn Select
#define EPWM_ETSEL_INTEN          0x8U         // EPWMxINTn Enable
#define EPWM_ETSEL_SOCASELCMP     0x10U        // EPWMxSOCA Compare Select
#define EPWM_ETSEL_SOCBSELCMP     0x20U        // EPWMxSOCB Compare Select
#define EPWM_ETSEL_INTSELCMP      0x40U        // EPWMxINT Compare Select
#define EPWM_ETSEL_SOCASEL_S      8U
#define EPWM_ETSEL_SOCASEL_M      0x700U       // Start of Conversion A Select
#define EPWM_ETSEL_SOCAEN         0x800U       // Start of Conversion A Enable
#define EPWM_ETSEL_SOCBSEL_S      12U
#define EPWM_ETSEL_SOCBSEL_M      0x7000U      // Start of Conversion B Select
#define EPWM_ETSEL_SOCBEN         0x8000U      // Start of Conversion B Enable

//*****************************************************************************
//
// The following are defines for the bit fields in the ETPS register
//
//*****************************************************************************
#define EPWM_ETPS_INTPRD_S        0U
#define EPWM_ETPS_INTPRD_M        0x3U         // EPWMxINTn Period Select
#define EPWM_ETPS_INTCNT_S        2U
#define EPWM_ETPS_INTCNT_M        0xCU         // EPWMxINTn Counter Register
#define EPWM_ETPS_INTPSSEL        0x10U        // EPWMxINTn Pre-Scale Selection
                                               // Bits
#define EPWM_ETPS_SOCPSSEL        0x20U        // EPWMxSOC A/B  Pre-Scale
                                               // Selection Bits
#define EPWM_ETPS_SOCAPRD_S       8U
#define EPWM_ETPS_SOCAPRD_M       0x300U       // EPWMxSOCA Period Select
#define EPWM_ETPS_SOCACNT_S       10U
#define EPWM_ETPS_SOCACNT_M       0xC00U       // EPWMxSOCA Counter Register
#define EPWM_ETPS_SOCBPRD_S       12U
#define EPWM_ETPS_SOCBPRD_M       0x3000U      // EPWMxSOCB Period Select
#define EPWM_ETPS_SOCBCNT_S       14U
#define EPWM_ETPS_SOCBCNT_M       0xC000U      // EPWMxSOCB Counter

//*****************************************************************************
//
// The following are defines for the bit fields in the ETFLG register
//
//*****************************************************************************
#define EPWM_ETFLG_INT            0x1U         // EPWMxINTn Flag
#define EPWM_ETFLG_SOCA           0x4U         // EPWMxSOCA Flag
#define EPWM_ETFLG_SOCB           0x8U         // EPWMxSOCB Flag

//*****************************************************************************
//
// The following are defines for the bit fields in the ETCLR register
//
//*****************************************************************************
#define EPWM_ETCLR_INT            0x1U         // EPWMxINTn Clear
#define EPWM_ETCLR_SOCA           0x4U         // EPWMxSOCA Clear
#define EPWM_ETCLR_SOCB           0x8U         // EPWMxSOCB Clear

//*****************************************************************************
//
// The following are defines for the bit fields in the ETFRC register
//
//*****************************************************************************
#define EPWM_ETFRC_INT            0x1U         // EPWMxINTn Force
#define EPWM_ETFRC_SOCA           0x4U         // EPWMxSOCA Force
#define EPWM_ETFRC_SOCB           0x8U         // EPWMxSOCB Force

//*****************************************************************************
//
// The following are defines for the bit fields in the ETINTPS register
//
//*****************************************************************************
#define EPWM_ETINTPS_INTPRD2_S    0U
#define EPWM_ETINTPS_INTPRD2_M    0xFU         // EPWMxINTn Period Select
#define EPWM_ETINTPS_INTCNT2_S    4U
#define EPWM_ETINTPS_INTCNT2_M    0xF0U        // EPWMxINTn Counter Register

//*****************************************************************************
//
// The following are defines for the bit fields in the ETSOCPS register
//
//*****************************************************************************
#define EPWM_ETSOCPS_SOCAPRD2_S   0U
#define EPWM_ETSOCPS_SOCAPRD2_M   0xFU         // EPWMxSOCA Period Select
#define EPWM_ETSOCPS_SOCACNT2_S   4U
#define EPWM_ETSOCPS_SOCACNT2_M   0xF0U        // EPWMxSOCA Counter Register
#define EPWM_ETSOCPS_SOCBPRD2_S   8U
#define EPWM_ETSOCPS_SOCBPRD2_M   0xF00U       // EPWMxSOCB Period Select
#define EPWM_ETSOCPS_SOCBCNT2_S   12U
#define EPWM_ETSOCPS_SOCBCNT2_M   0xF000U      // EPWMxSOCB Counter Register

//*****************************************************************************
//
// The following are defines for the bit fields in the ETCNTINITCTL register
//
//*****************************************************************************
#define EPWM_ETCNTINITCTL_INTINITFRC  0x400U       // EPWMxINT Counter
                                               // Initialization Force
#define EPWM_ETCNTINITCTL_SOCAINITFRC  0x800U       // EPWMxSOCA Counter
                                               // Initialization Force
#define EPWM_ETCNTINITCTL_SOCBINITFRC  0x1000U      // EPWMxSOCB Counter
                                               // Initialization Force
#define EPWM_ETCNTINITCTL_INTINITEN  0x2000U      // EPWMxINT Counter
                                               // Initialization Enable
#define EPWM_ETCNTINITCTL_SOCAINITEN  0x4000U      // EPWMxSOCA Counter
                                               // Initialization Enable
#define EPWM_ETCNTINITCTL_SOCBINITEN  0x8000U      // EPWMxSOCB Counter
                                               // Initialization Enable

//*****************************************************************************
//
// The following are defines for the bit fields in the ETCNTINIT register
//
//*****************************************************************************
#define EPWM_ETCNTINIT_INTINIT_S  0U
#define EPWM_ETCNTINIT_INTINIT_M  0xFU         // EPWMxINT Counter
                                               // Initialization Bits
#define EPWM_ETCNTINIT_SOCAINIT_S  4U
#define EPWM_ETCNTINIT_SOCAINIT_M  0xF0U        // EPWMxSOCA Counter
                                               // Initialization Bits
#define EPWM_ETCNTINIT_SOCBINIT_S  8U
#define EPWM_ETCNTINIT_SOCBINIT_M  0xF00U       // EPWMxSOCB Counter
                                               // Initialization Bits

//*****************************************************************************
//
// The following are defines for the bit fields in the DCTRIPSEL register
//
//*****************************************************************************
#define EPWM_DCTRIPSEL_DCAHCOMPSEL_S  0U
#define EPWM_DCTRIPSEL_DCAHCOMPSEL_M  0xFU         // Digital Compare A High COMP
                                               // Input Select
#define EPWM_DCTRIPSEL_DCALCOMPSEL_S  4U
#define EPWM_DCTRIPSEL_DCALCOMPSEL_M  0xF0U        // Digital Compare A Low COMP
                                               // Input Select
#define EPWM_DCTRIPSEL_DCBHCOMPSEL_S  8U
#define EPWM_DCTRIPSEL_DCBHCOMPSEL_M  0xF00U       // Digital Compare B High COMP
                                               // Input Select
#define EPWM_DCTRIPSEL_DCBLCOMPSEL_S  12U
#define EPWM_DCTRIPSEL_DCBLCOMPSEL_M  0xF000U      // Digital Compare B Low COMP
                                               // Input Select

//*****************************************************************************
//
// The following are defines for the bit fields in the DCACTL register
//
//*****************************************************************************
#define EPWM_DCACTL_EVT1SRCSEL    0x1U         // DCAEVT1 Source Signal
#define EPWM_DCACTL_EVT1FRCSYNCSEL  0x2U         // DCAEVT1 Force Sync Signal
#define EPWM_DCACTL_EVT1SOCE      0x4U         // DCAEVT1 SOC Enable
#define EPWM_DCACTL_EVT1SYNCE     0x8U         // DCAEVT1 SYNC Enable
#define EPWM_DCACTL_EVT2SRCSEL    0x100U       // DCAEVT2 Source Signal
#define EPWM_DCACTL_EVT2FRCSYNCSEL  0x200U       // DCAEVT2 Force Sync Signal

//*****************************************************************************
//
// The following are defines for the bit fields in the DCBCTL register
//
//*****************************************************************************
#define EPWM_DCBCTL_EVT1SRCSEL    0x1U         // DCBEVT1 Source Signal
#define EPWM_DCBCTL_EVT1FRCSYNCSEL  0x2U         // DCBEVT1 Force Sync Signal
#define EPWM_DCBCTL_EVT1SOCE      0x4U         // DCBEVT1 SOC Enable
#define EPWM_DCBCTL_EVT1SYNCE     0x8U         // DCBEVT1 SYNC Enable
#define EPWM_DCBCTL_EVT2SRCSEL    0x100U       // DCBEVT2 Source Signal
#define EPWM_DCBCTL_EVT2FRCSYNCSEL  0x200U       // DCBEVT2 Force Sync Signal

//*****************************************************************************
//
// The following are defines for the bit fields in the DCFCTL register
//
//*****************************************************************************
#define EPWM_DCFCTL_SRCSEL_S      0U
#define EPWM_DCFCTL_SRCSEL_M      0x3U         // Filter Block Signal Source
                                               // Select
#define EPWM_DCFCTL_BLANKE        0x4U         // Blanking Enable/Disable
#define EPWM_DCFCTL_BLANKINV      0x8U         // Blanking Window Inversion
#define EPWM_DCFCTL_PULSESEL_S    4U
#define EPWM_DCFCTL_PULSESEL_M    0x30U        // Pulse Select for Blanking &
                                               // Capture Alignment

//*****************************************************************************
//
// The following are defines for the bit fields in the DCCAPCTL register
//
//*****************************************************************************
#define EPWM_DCCAPCTL_CAPE        0x1U         // Counter Capture Enable
#define EPWM_DCCAPCTL_SHDWMODE    0x2U         // Counter Capture Mode
#define EPWM_DCCAPCTL_CAPSTS      0x2000U      // Latched Status Flag for
                                               // Capture Event
#define EPWM_DCCAPCTL_CAPCLR      0x4000U      // DC Capture Latched Status
                                               // Clear Flag
#define EPWM_DCCAPCTL_CAPMODE     0x8000U      // Counter Capture Mode

//*****************************************************************************
//
// The following are defines for the bit fields in the DCAHTRIPSEL register
//
//*****************************************************************************
#define EPWM_DCAHTRIPSEL_TRIPINPUT1  0x1U         // Trip Input 1 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT2  0x2U         // Trip Input 2 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT3  0x4U         // Trip Input 3 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT4  0x8U         // Trip Input 4 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT5  0x10U        // Trip Input 5 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT6  0x20U        // Trip Input 6 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT7  0x40U        // Trip Input 7 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT8  0x80U        // Trip Input 8 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT9  0x100U       // Trip Input 9 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT10  0x200U       // Trip Input 10 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT11  0x400U       // Trip Input 11 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT12  0x800U       // Trip Input 12 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT14  0x2000U      // Trip Input 14 Select to DCAH
                                               // Mux
#define EPWM_DCAHTRIPSEL_TRIPINPUT15  0x4000U      // Trip Input 15 Select to DCAH
                                               // Mux

//*****************************************************************************
//
// The following are defines for the bit fields in the DCALTRIPSEL register
//
//*****************************************************************************
#define EPWM_DCALTRIPSEL_TRIPINPUT1  0x1U         // Trip Input 1 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT2  0x2U         // Trip Input 2 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT3  0x4U         // Trip Input 3 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT4  0x8U         // Trip Input 4 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT5  0x10U        // Trip Input 5 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT6  0x20U        // Trip Input 6 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT7  0x40U        // Trip Input 7 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT8  0x80U        // Trip Input 8 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT9  0x100U       // Trip Input 9 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT10  0x200U       // Trip Input 10 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT11  0x400U       // Trip Input 11 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT12  0x800U       // Trip Input 12 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT14  0x2000U      // Trip Input 14 Select to DCAL
                                               // Mux
#define EPWM_DCALTRIPSEL_TRIPINPUT15  0x4000U      // Trip Input 15 Select to DCAL
                                               // Mux

//*****************************************************************************
//
// The following are defines for the bit fields in the DCBHTRIPSEL register
//
//*****************************************************************************
#define EPWM_DCBHTRIPSEL_TRIPINPUT1  0x1U         // Trip Input 1 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT2  0x2U         // Trip Input 2 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT3  0x4U         // Trip Input 3 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT4  0x8U         // Trip Input 4 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT5  0x10U        // Trip Input 5 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT6  0x20U        // Trip Input 6 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT7  0x40U        // Trip Input 7 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT8  0x80U        // Trip Input 8 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT9  0x100U       // Trip Input 9 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT10  0x200U       // Trip Input 10 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT11  0x400U       // Trip Input 11 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT12  0x800U       // Trip Input 12 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT14  0x2000U      // Trip Input 14 Select to DCBH
                                               // Mux
#define EPWM_DCBHTRIPSEL_TRIPINPUT15  0x4000U      // Trip Input 15 Select to DCBH
                                               // Mux

//*****************************************************************************
//
// The following are defines for the bit fields in the DCBLTRIPSEL register
//
//*****************************************************************************
#define EPWM_DCBLTRIPSEL_TRIPINPUT1  0x1U         // Trip Input 1 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT2  0x2U         // Trip Input 2 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT3  0x4U         // Trip Input 3 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT4  0x8U         // Trip Input 4 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT5  0x10U        // Trip Input 5 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT6  0x20U        // Trip Input 6 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT7  0x40U        // Trip Input 7 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT8  0x80U        // Trip Input 8 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT9  0x100U       // Trip Input 9 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT10  0x200U       // Trip Input 10 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT11  0x400U       // Trip Input 11 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT12  0x800U       // Trip Input 12 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT14  0x2000U      // Trip Input 14 Select to DCBL
                                               // Mux
#define EPWM_DCBLTRIPSEL_TRIPINPUT15  0x4000U      // Trip Input 15 Select to DCBL
                                               // Mux
#endif
